Velocity and Acceleration Definitions of Velocity and Acceleration

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Velocity and Acceleration

Velocity and Acceleration

Definitions of Velocity and Acceleration •

Definitions of Velocity and Acceleration •

1. The position vector r describes the path of an object moving in the

1. The position vector r describes the path of an object moving in the xy-plane. Sketch a graph of the path and sketch the velocity and acceleration vectors at the given point (Similar to p. 856 #1 -10) Position Function Point (1, 2)

2. The position vector r describes the path of an object moving in the

2. The position vector r describes the path of an object moving in the xy-plane. Sketch a graph of the path and sketch the velocity and acceleration vectors at the given point (Similar to p. 856 #1 -10) NEXT TIME Position Function Point (4, 16)

3. The position vector r describes the path of an object moving in the

3. The position vector r describes the path of an object moving in the xy-plane. Sketch a graph of the path and sketch the velocity and acceleration vectors at the given point (Similar to p. 856 #1 -10) Position Function Point

4. The position vector r describes the path of an object moving in space.

4. The position vector r describes the path of an object moving in space. Find the velocity, speed, and acceleration of the object (Similar to p. 856 #11 -20) •

5. The position vector r describes the path of an object moving in space.

5. The position vector r describes the path of an object moving in space. Find the velocity, speed, and acceleration of the object (Similar to p. 856 #11 -20) •

6. The position vector r describes the path of an object moving in space.

6. The position vector r describes the path of an object moving in space. Find the velocity, speed, and acceleration of the object (Similar to p. 856 #11 -20) •

7. Use the given acceleration function to find the velocity and position vectors. Then

7. Use the given acceleration function to find the velocity and position vectors. Then find the position at time t = 2 (Similar to p. 856 #23 -28) •

8. Use the given acceleration function to find the velocity and position vectors. Then

8. Use the given acceleration function to find the velocity and position vectors. Then find the position at time t = 2 (Similar to p. 856 #23 -28) •

9. Use the given acceleration function to find the velocity and position vectors. Then

9. Use the given acceleration function to find the velocity and position vectors. Then find the position at time t = 5 pi/3 (Similar to p. 856 #23 -28) •

Position Function for a Projectile •

Position Function for a Projectile •

10. Use the model for projectile motion, assuming there is no air resistance (Similar

10. Use the model for projectile motion, assuming there is no air resistance (Similar to p. 856 #29 -44) Find the vector-valued function for the path of a projectile launched at a height of 20 feet above the ground with an initial velocity of 100 feet per second at an angle of 45 o above the horizontal.

11. Use the model for projectile motion, assuming there is no air resistance (Similar

11. Use the model for projectile motion, assuming there is no air resistance (Similar to p. 856 #29 -44) A baseball, hit 5 feet above the ground, leaves the bat at an angle of 30 o and is caught by an outfielder 5 feet above the ground and 200 feet from home plate. What is the initial speed of the ball, and how high does it rise?